CONVENTIONAL NDT
 
We are offering the NDT & inspection services to suit every client particular need and satisfaction as listed below:

Dye Penetrant Testing (DPT)
Magnetic Particle Testing (MPT)
Ultrasonic Thickness Measurement (UTTM)
Ultrasonic Flaw Detection (UTFD)
Hardness Testing
Radiographic Testing (RT) 
Small Controlled Area Radiation (SCAR)
Dye Penetrant Testing (DPT)
Dye penetrant Testing (DPT), also called liquid penetrant inspection (LPI) or penetrant testing (PT), is a widely applied and low-cost inspection method used to locate surface-breaking defects in all non-porous materials (metals, plastics, or ceramics).  
Magnetic Particle Testing (MPT)
  Magnetic particle Testing (MPT) is a non-destructive testing (NDT) process for detecting surface and slightly subsurface discontinuities in ferromagnetic materials such as iron, nickel, cobalt, and some of their alloys. The process puts a magnetic field into the part.
Ultrasonic Thickness Measurement (UTTM)
Ultrasonic nondestructive testing, also known as ultrasonic NDT or simply UT, is a method of characterizing the thickness or internal structure of a test piece through the use of high frequency sound waves.  
Ultrasonic Flaw Detection (UTFD)
  Sound waves are simply organized mechanical vibrations traveling through a medium, which may be a solid, a liquid, or a gas. These waves will travel through a given medium at a specific speed or velocity, in a predictable direction, and when they encounter a boundary with a different medium they will be reflected or transmitted according to simple rules. This is the principle of physics that underlies ultrasonic flaw detection.
Hardness Testing
Hardness is a measure of how resistant solid matter is to various kinds of permanent shape change when a compressive force is applied. Some materials (e.g. metals) are harder than others (e.g. plastics).  
Radiographic Testing (RT)
  Radiographic Testing (RT) – This method of weld testing makes use of X-rays, produced by an X-ray tube, or gamma rays, produced by a radioactive isotope. The basic principle of radiographic inspection of welds is the same as that for medical radiography.
Small Controlled Area Radiation (SCAR)
Radiography is a well-established conventional NDT technique with inherent risks associated with the use of radiation. Managing the safety risk by the setting of ‘controlled areas’ has the adverse effect of reducing clients’ production time. It was this clear market pull that triggered the innovative capability of Oceaneering to develop the ‘Small Controlled Area Radiography’ (SCAR) system. The system enables radiography to be performed in the heart of the workplace without disruption to normal operations.

SCAR-a directional gamma radiography system for use in areas congested with workers, confined spaces, or where radiation output must be kept to an absolute minimum so not to disrupt normal operations.

SCAR has been developed with safety and productivity as the main objectives, and has simply set the precedent for safer radiography in the industry.
 
 





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P.O.Box 2414,
Al Jubail 31951
Kingdom of Saudi Arabia
T.: (+966) 013 344 8522
F.: (+966) 013 344 8533
E.: info@saudikkem.com




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